Dr. Ali Nikbakht anikbakht@iut.ac.ir Google Scholar LinkedIn Instagram Office Dept. of Horticulture, Colledge of Agriculture, Isfahan University of Technology, Isfahan, Iran Phone +98 31 33913412 Fax +98 31 33913412 Positions Professor of Department of Horticulture Research Interests Environmental Horticulture Urban Forestry Greenhouse Crops Sport Turfgrass Plant Physiology under Stress Dr. Ali Nikbakht Biography Publications Research Projects Books Greenhouses Image Gallery type: Journal Title Conference / Journal Date Co-Application of Arbuscular Mycorrhizal Fungi and Silicon Nanoparticles: A Strategy for Optimizing Volatile Profile, Phenolic Content, and Flower Yield in Rosa damascena Genotypes Agriculture-Basel 2025-10 Effects of silicon nano-chelate on Tetranychus urticae populations and plant structural and physiological traits in rose cultivars Scientific Reports 2025-10 Roses exhibited higher production and postharvest longevity in response to nano-nutrients of Fe, Ca and Zn under LED supplemental lighting BMC PLANT BIOLOGY 2025-09 Application of computational fluid dynamics (CFD) for optimal temperature sensor placement in a greenhouse equipped with a pad-fan cooling (PFC) system Smart Agricultural Technology 2025-06 An Integrated Approach Employing Endotherapy Accompanied with Fertilization and Soil Mulching Recovered Plane Trees from Early Leaf Chlorosis in the Urban Landscape Journal of Soil Science and Plant Nutrition 2025-01 Silicon and Seaweed Extract Injection into Olive Tree (Olea europaea L.) Trunks Results in the Tree's Drought Stress Resistance COMMUNICATIONS IN SOIL SCIENCE AND PLANT ANALYSIS 2024-08 Synergistic effects of oxygen nanobubble, nano-silicon and seaweed extract on promoting quality and postharvest performance of two cut rose flowers SCIENTIA HORTICULTURAE 2024-07 Red LED light improved the vase life of cut rose flowers during cold storage 2024-03 Variation in Flavonoid Compounds, Volatiles and Yield Related Traits in Different Iranian Rosa damascena Mill. Cultivars Based on SPME Arrow and LC-MS/MS 2024-02 An application of dielectric barrier discharge treatment to control gray mold growth on cut rose flowers 2023-12